Deformation Monitoring of Qinghai-Tibet Railway from 1997-2018 using SAR Interferometry with Multi-sensors SAR Datasets

机译：采用SAR干涉测量法与多传感器SAR数据集的青藏铁路变形监测

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The permafrost in Qinghai-Tibet Plateau (QTP) has undergone serious degradation due to the climate change and human activities. The Qinghai-Tibet Railway (QTR) is the highest plateau artificial facility and some sections are been threatened due to permafrost degradation. Long-team measurement along QTR is urgent for permafrost environment and hazard prevention. In this paper, the ground deformation along QTR from Wudaoliang to Tuotuohe section were retrieved using time-series InSAR method with multi-sensors SAR datasets during 1997 and 2018. InSAR measurement from ERS-1, ENVISAT and Sentinel-1A datasets shows most of the QTR shows stable condition. Obvious ground deformation in some sections, with the deformation rate up to ?20 mm/year. The construction of QTR has ccelerated the settlement of permafrost in some areas.

机译：由于气候变化和人类活动，青藏高原（QTP）的永久冻土经历了严重的退化。青藏铁路（QTR）是最高的平台人工设施，有些部分由于永久冻土降级而受到威胁。跨QTR的长队测量是永久冻土环境和危险预防的迫切。在本文中，使用时间序列Insar方法从1997年和2018年使用多传感器SAR数据集的时间序列Insar方法检索来自Wudaoliang到Tuotuohe部分的Qtr沿Qtr沿托沱段的地面变形。来自ERS-1，Envisat和Sentinel-1A数据集的Insar测量显示了大部分QTR显示出稳定的条件。某些部分中明显的地面变形，变形率达到20毫米/年。 QTR的建设已经在某些地区划分了永久冻土的沉降。

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《SAR in Big Data Era: Models, Methods and Applications》|2019年|102p|共4页
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Zhengjia Zhang; Mengmeng Wang; Xiuguo Liu; Qihao Chen; Chao Wang; Hong Zhang;
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中图分类数据通信;
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Strain; Synthetic aperture radar; Monitoring; Rail transportation; Radar polarimetry; Deformable models; Remote sensing;

机译：菌株;合成孔径雷达;监测;铁路运输;雷达偏振物;可变形的模型;遥感;

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专利

1. Interaction between permafrost and infrastructure along the Qinghai-Tibet Railway detected via jointly analysis of C- and L-band small baseline SAR interferometry [J] . Chen F., Lin H., Li Z., Remote Sensing of Environment: An Interdisciplinary Journal . 2012,第Null期

机译：通过对C波段和L波段小基线SAR干涉测量法的联合分析，发现青藏铁路沿线多年冻土与基础设施之间的相互作用
2. Monitoring the Thaw Slump-Derived Thermokarst in the Qinghai-Tibet Plateau Using Satellite SAR Interferometry [J] . Bo Hu, Yang Wu, Xingfu Zhang, Journal of Sensors . 2019,第Pta2期

机译：使用卫星SAR干涉测量法监测青藏高原的第九次坍落度衍生的Thermokst
3. Monitoring the Thaw Slump-Derived Thermokarst in the Qinghai-Tibet Plateau Using Satellite SAR Interferometry [J] . Bo Hu, Yang Wu, Xingfu Zhang, Journal of Sensors . 2019,第1期

机译：使用卫星SAR干涉测量法监测青藏高原的第九次坍落度衍生的热量
4. Deformation Monitoring of Qinghai-Tibet Railway from 1997-2018 using SAR Interferometry with Multi-sensors SAR Datasets [C] . Zhengjia Zhang, Mengmeng Wang, Xiuguo Liu, SAR in Big Data Era: Models, Methods and Applications . 2019

机译：使用多传感器SAR数据集的SAR干涉测量法对1997-2018年青藏铁路的变形监测
5. Long-term monitoring of geodynamic surface deformation using SAR interferometry. [D] . Gong, Wenyu. 2014

机译：使用SAR干涉法长期监测地球动力学表面变形。
6. A Multi-Sensor Comparative Analysis on the Suitability of Generated DEM from Sentinel-1 SAR Interferometry Using Statistical and Hydrological Models [O] . Ayub Mohammadi, Sadra Karimzadeh, Shazad Jamal Jalal, 2020

机译：一种多传感器比较分析统计和水文模型从哨兵-1 SAR干涉测量中产生DEM的适用性

Deformation Monitoring of Qinghai-Tibet Railway from 1997-2018 using SAR Interferometry with Multi-sensors SAR Datasets

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